CN108324270A - A kind of cardioelectric monitor equipment, cardioelectric monitor apparatus control system and method - Google Patents

Abstract

It includes control unit and the cardioelectric monitor unit being electrically connected with control unit, gravity sensing unit, inductive switch unit and power supply unit that the present invention, which provides a kind of cardioelectric monitor equipment,；Inductive switch unit is used to receive the inductive switching signal that external switch triggering equipment is sent out, to cut off being electrically connected for power supply unit and control unit；Cardioelectric monitor unit is for acquiring human body electrocardio data information；Gravity sensing unit is for sensing the cardioelectric monitor unit gravity center shift, so that control unit controls power supply unit and powers for cardioelectric monitor unit.The present invention also provides a kind of cardioelectric monitor apparatus control system and control methods.

Description

A kind of cardioelectric monitor equipment, cardioelectric monitor apparatus control system and method

【Technical field】

The present invention relates to cardiac monitoring field more particularly to a kind of cardioelectric monitor equipment, cardioelectric monitor apparatus control systems And method.

【Background technology】

The health of modern life cardiac is more and more people problem of interest.By years of researches and clinical card It is real, it can detect that the electrocardio change curve of heart, i.e., the electrocardiogram described in usual clinical medicine lead to by cardioelectric monitor equipment It crosses and the heart diseases such as arrhythmia cordis, myocardial ischemia may determine that the analysis of electrocardiogram.In existing cardioelectric monitor equipment, need The electrode of cardioelectric monitor equipment is fitted in the position of the close heart of human body, the chest position as where heart.

And often, the generation of heart disease is used in motion process in the motion process of people mostly Cardioelectric monitor equipment, charging is inconvenient to use, and the electric energy that the battery of cardioelectric monitor equipment can be supplied is limited, battery electricity When can exhaust, which can not use.Therefore, how to reduce the electricity of heart portable cardiac monitoring device It can be lost, the usage time for extending cardioelectric monitor equipment is those skilled in the art's technical problem urgently to be resolved hurrily.

【Invention content】

To overcome technological deficiency existing for current portable cardiac monitoring device, the present invention provides a kind of cardioelectric monitors to set Standby, cardioelectric monitor apparatus control system and method.

The present invention solve technical problem technical solution be to provide a kind of cardioelectric monitor equipment include control unit and with Cardioelectric monitor unit, gravity sensing unit, inductive switch unit and the power supply unit of control unit electrical connection；Inductive switch unit The inductive switching signal sent out for receiving external switch triggering equipment, to cut off being electrically connected for power supply unit and control unit It connects；Cardioelectric monitor unit is for acquiring human body electrocardio data information；Gravity sensing unit is for sensing the cardioelectric monitor unit weight The heart changes, so that control unit controls power supply unit and powers for cardioelectric monitor unit.

Preferably, the cardioelectric monitor equipment further includes data storage cell；When cardioelectric monitor equipment disconnection and eventually When end equipment is wirelessly connected, the collected electrocardiogram data information of cardioelectric monitor unit is stored in the data storage cell.

Preferably, the cardioelectric monitor equipment further includes being wirelessly connected unit, timing unit；The cardioelectric monitor equipment is logical The wireless connection unit is crossed to be wirelessly connected with terminal device；When cardioelectric monitor equipment continue in threshold time β not with terminal Equipment carries out ECG Data Transmission Based, and when not disconnecting the wireless connection with terminal device, and timing unit sends out overtime feedback signal To control unit, so that control cardioelectric monitor equipment disconnects power supply unit and the electricity for being wirelessly connected unit and cardioelectric monitor unit Connection.

Preferably, the threshold values β is 30s-120s.

The present invention also provides a kind of cardioelectric monitor apparatus control systems, including switch triggering equipment and cardioelectric monitor to set It is standby；The switch triggering equipment includes switch triggering unit, and the switch triggering unit can be with emission switch inductive signal；It is described Cardioelectric monitor equipment includes control unit and the cardioelectric monitor unit being electrically connected with control unit, gravity sensing unit, induction Switch unit and power supply unit；Inductive switch unit is for receiving the inductive switching signal that switch triggering equipment is sent out, with cut-out Power supply unit is electrically connected with control unit；Cardioelectric monitor unit is for acquiring human body electrocardio data information；Gravity sensing unit For sensing the cardioelectric monitor unit gravity center shift, so that control unit controls power supply unit and powers for cardioelectric monitor unit.

Preferably, switch triggering equipment further includes a housing unit, for storing the cardioelectric monitor equipment, and when described When cardioelectric monitor equipment is accommodated in the housing unit, cut-out said supply unit is electrically connected with control unit.

The present invention also provides the control method such as aforementioned cardioelectric monitor equipment, the cardioelectric monitor equipment is set with suspend mode mould Formula, awakening mode wait for work pattern and operating mode, in the hibernation mode, said supply unit and gravity sensing unit and Control unit is electrically connected；In the wake mode, power supply unit is electrically connected with gravity sensing unit and cardioelectric monitor unit；It is working Under pattern, electrocardiogram data information can be acquired and stored, included the following steps：Judge whether to receive switch triggering signal, such as Fruit is then to open cardioelectric monitor equipment, and cardioelectric monitor equipment is made to enter suspend mode；Judge the cardioelectric monitor equipment opened Whether center of gravity changes, if it is, automatically into awakening mode；Judge in the wake mode, to detect cardioelectric monitor unit It is whether logical with human skin lead；If cardioelectric monitor equipment is logical with human skin lead, cardioelectric monitor equipment enters Working mould Formula.

Preferably, the operating mode includes half work pattern and full work pattern, under half work pattern, by collected electrocardio Data information memory is in cardioelectric monitor equipment；Under full work pattern, electrocardio equipment is connect with terminal signaling, by the collected heart Electric data information transfer is to terminal device.

Preferably, under full work pattern, if cardioelectric monitor equipment is connect with terminal device disconnection of wireless, monitoring electrocardio prison The duration that measurement equipment is connect with terminal device disconnection of wireless, if disconnection of wireless connection is continued above setting threshold time γ When, automatically into half work pattern.

Preferably, under full work pattern, if cardioelectric monitor equipment is connect with terminal device disconnection of wireless, monitoring electrocardio prison The duration that measurement equipment is connect with terminal device disconnection of wireless, if disconnection of wireless connection is continued above setting threshold time γ When, automatically into half work pattern, 30s≤γ≤120s.

Compared with prior art, a kind of cardioelectric monitor equipment provided by the present invention has the following advantages：

1, it is controlled by the cooperation of switch triggering unit and inductive switch unit and is electrically connected between power supply unit and control unit The access of link or open circuit.To control switching of the cardioelectric monitor equipment in suspend mode and shutdown mode.

By the way that gravity sensing unit is arranged in cardioelectric monitor equipment, in the hibernation mode by gravity sensing unit sensing Cardioelectric monitor equipment whether shake, i.e., whether user needs, using the cardioelectric monitor equipment under suspend mode, determining user When needing to use the cardioelectric monitor equipment under suspend mode, cardioelectric monitor equipment is switched to awakening mode so that cardioelectric monitor Unit and wireless connection unit are in standby operating mode.By the seamless switching of pattern, it can make cardioelectric monitor equipment only When needing to use, corresponding unit can just power wake-ups, to be that cardioelectric monitor equipment accomplishes maximum power saving.

【Description of the drawings】

Fig. 1 is the cardioelectric monitor apparatus control system structural schematic diagram that first embodiment of the invention is provided.

Fig. 2 is the cardioelectric monitor apparatus control system structure of block diagram schematic diagram that first embodiment of the invention is provided.

Fig. 3 is the cardioelectric monitor apparatus control system thin portion structure of block diagram schematic diagram that first embodiment of the invention is provided.

Fig. 4 is the cardioelectric monitor apparatus control system partial block diagram structural schematic diagram that first embodiment of the invention is provided.

Fig. 5 is the cardioelectric monitor apparatus control system structure of block diagram schematic diagram that second embodiment of the invention is provided.

Fig. 6 is the cardioelectric monitor apparatus control system structure of block diagram schematic diagram that third embodiment of the invention is provided.

Fig. 7 A are the cardioelectric monitor apparatus control system structural schematic diagrams that fourth embodiment of the invention is provided.

Fig. 7 B are the cardioelectric monitor apparatus control system structure of block diagram schematic diagrames that fourth embodiment of the invention is provided.

Fig. 8 is the cardioelectric monitor apparatus control method flow chart that fifth embodiment of the invention is provided.

Fig. 9 is the cardioelectric monitor apparatus control method structural framing figure that fifth embodiment of the invention is provided.

【Specific implementation mode】

In order to make the purpose of the present invention, technical solution and advantage be more clearly understood, below in conjunction with attached drawing and embodiment, The present invention will be described in further detail.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, It is not intended to limit the present invention.

It should be strongly noted that in the present invention, when element is referred to as " being set to " or " being set to " another element, it can With directly on another element or there may also be centering elements.Term as used herein " vertical ", "horizontal", "upper" And "lower" and similar statement are for illustrative purposes only, it is not intended that the limitation present invention.

- 2 are please referred to Fig.1, the present invention provides a kind of control system 10 of cardioelectric monitor equipment comprising cardioelectric monitor equipment 103, terminal device 101 and switch triggering equipment 102.Cardioelectric monitor equipment 103 with human skin for being bonded, such as human body chest Skin at mouthful monitors human body electrocardio data information, and electrocardiogram data information can be with analyzing processing human body from electrocardiogram data information Electrocardiogram and the relevant informations such as heart rate.Terminal device 101 is communicated to connect with cardioelectric monitor equipment 103, the communication connection Mode can be that wireless communication connection can also be wire communication connection, to realize cardioelectric monitor equipment 103 and terminal device Electrocardiogram data information acquired in cardioelectric monitor equipment 103 is transferred to equipment end by data transmission or realization between 101 The function at end.User can check the electrocardiogram data information of corresponding user by terminal device 101, to know counterpart personnel Health status.Wireless communication connection is by the wireless network connections such as bluetooth, WiFi, Lifi, infrared, Zigbee to realize Data transmission each other.Wire communication connection is to be connected terminal device 101 and cardioelectric monitor equipment 103 by data line It connects, with the data transmission between realization.Terminal device 101 can be the mobile terminals such as mobile phone, ipad, laptop, Can also be the fixed terminals such as desktop computer, server, terminal device 101 can be supplied by built-in battery or external power supply Electricity.Switch triggering equipment 102 is used to trigger booting or the shutdown switch of cardioelectric monitor equipment 103, realizes cardioelectric monitor equipment 103 Booting, power-off operation.

Referring to Fig. 3, switch triggering equipment 102 includes switch triggering unit 1022, switch triggering unit 1022 is set to In switch triggering equipment 102, for coordinating with cardioelectric monitor equipment 103, the power supply of cardioelectric monitor equipment 103 is made to close.So as to After cardioelectric monitor equipment 103 comes close to or in contact with switch triggering unit 1022, switch triggering unit 1022 controls the cardioelectric monitor Equipment 103 is shut down, and avoids forgetting the closing of cardioelectric monitor equipment 103 causing electric energy loss in user.

Further, the shutdown that cardioelectric monitor equipment 103 is realized using switch triggering unit 1022, so as to not in the heart Power-off button is arranged in pyroelectric monitor equipment 103 can also realize the power-off operation of cardioelectric monitor equipment 103 so that without being supervised in electrocardio Extra switch is set on measurement equipment 103, the waterproof and dustproof performance of cardioelectric monitor equipment 103 is influenced, so that cardioelectric monitor is set For 103, the service life is longer.

In some embodiments, switch triggering equipment 102 is additionally provided with housing unit 1021, is set for realizing cardioelectric monitor Standby 103 storage prevents cardioelectric monitor equipment 103 from arbitrarily leaving about and causes to lose, to realize that the synchronous of cardioelectric monitor equipment 103 is received It receives and shuts down.

Referring again to Fig. 3, terminal device 101 include signal connection unit 1013, secondary data storage unit 1012 and Display unit 1011.Signal connection unit 1013 for realizing terminal device 101 and cardioelectric monitor equipment 103 communication connection, The signal connection unit 1013 can be WiFi connection units or bluetooth connection unit, Lifi connection units, infrared connection unit Or Zigbee connection units.

Secondary data storage unit 1012 is used to store the electrocardiogram data information transmitted from cardioelectric monitor equipment 103, So that user transfers corresponding electrocardiogram data information at any time.Display unit 1011 obtains the electrocardio of secondary data storage unit 1012 Data information or acquisition pyroelectric monitor equipment 103 transmit heart real time data information, and electrocardiogram data information is handled and shown It is shown as corresponding word or graphical information, user can know corresponding electrocardiogram data information by display unit 1011.

Cardioelectric monitor equipment 103 includes control unit 1031, gravity sensing unit 1033, inductive switch unit 1034, supplies Electric unit 1035 is wirelessly connected unit 1036, lead detection unit 1039, data storage cell 1132 and cardioelectric monitor unit 1131.Control unit 1031 and gravity sensing unit 1033, inductive switch unit 1034, power supply unit 1035, wireless connection are single Member 1036, lead detection unit 1039, data storage cell 1132 and cardioelectric monitor unit 1131 are electrically connected, to control correspondence Unit realizes respective function.

Cardioelectric monitor equipment 103 can set five kinds of patterns, be shutdown mode respectively, suspend mode, and awakening mode waits for work Pattern and operating mode.

Power supply unit 1035 is disconnected in shutdown mode detects with control unit 1031, wireless connection unit 1036, lead The electrical connection of unit 1039, data storage cell 1132 and cardioelectric monitor unit 1131.

In suspend mode, power supply unit 1035 is electrically connected with gravity sensing unit 1033 and control unit 1031.

In awakening mode, power supply unit 1035 is detected with gravity sensing unit 1033, wireless connection unit 1036, lead Unit 1039, data storage cell 1132 and cardioelectric monitor unit 1131 are electrically connected.

It waits in work pattern, power supply unit 1035 and gravity sensing unit 1033, wireless connection unit 1036, lead detection are single Member 1039, data storage cell 1132 and cardioelectric monitor unit 1131 are electrically connected, and are wirelessly connected unit 1036 and are set with terminal Standby 101 are in wireless connection conditions, and cardioelectric monitor equipment 103 not yet checks the electrocardiogram data information of human body at this time.

In operating mode, power supply unit 1035 and gravity sensing unit 1033, wireless connection unit 1036, lead detection are single Member 1039, data storage cell 1132 and cardioelectric monitor unit 1131 are electrically connected, and cardioelectric monitor unit 1131 and human body skin Skin conducting connection namely working condition are the state that cardioelectric monitor equipment 103 can obtain human body electrocardio data information and storage.

Wherein, operating mode includes half work pattern and full work pattern, under half work pattern, is wirelessly connected unit 1036 not It is wirelessly connected with terminal device, the human body electrocardio data information memory that cardioelectric monitor equipment 103 obtains is in data storage cell 1132.Under full work pattern, it is wirelessly connected unit 1036 and is wirelessly connected with terminal device, the people that cardioelectric monitor equipment 103 obtains Body electrocardiogram data information is stored in the secondary data storage unit 1012 of terminal device by way of wireless transmission.

And cardioelectric monitor equipment 103 is when being put into 102 in switch triggering equipment, cardioelectric monitor equipment 103 is triggered shutdown, Enter shutdown mode, and when cardioelectric monitor equipment 103 is taken out from switch triggering equipment 102, cardioelectric monitor equipment 103 Automatically into suspend mode.

In the hibernation mode, if 103 mass centre changing of cardioelectric monitor equipment, enter awakening mode.In the wake mode, the heart Pyroelectric monitor equipment 103 can be wirelessly connected with terminal device, while can be bonded with human skin and be obtained human body electrocardio data letter Breath.If cardioelectric monitor equipment 103 and terminal device 101 are only to be wirelessly connected, the cardioelectric monitor equipment 103 is automatically into waiting for work Pattern, to wait for cardioelectric monitor equipment 103 to obtain human body electrocardio data information.

If pyroelectric monitor equipment 103, which is in, waits for that the duration of work pattern is more than the duration of setting, enter suspend mode.

If cardioelectric monitor equipment 103 is wirelessly connected with terminal device 101, also human skin is electrically connected, then is entered The human body electrocardio data information of acquisition is sent to terminal device 101 by full work pattern by wireless transmission.

When disconnection of wireless connection is more than setting duration under full work pattern, into half work pattern, the human body electrocardio data of acquisition Information storage is in the data storage cell 1132 of the cardioelectric monitor equipment, when waiting is wirelessly connected with terminal device 101 again Electrocardiogram data information in data storage cell 1132 is passed into terminal device 101.The setting duration can be set as needed It is fixed.

Specifically, inductive switch unit 1034 is used to match with the switch triggering unit 1022 of switch triggering equipment 102, Switch triggering unit 1022 sends out inductive switching signal, and the inductive switching can be received by being entered in inductive switch unit 1034 When in range of signal, such as between switch triggering unit 1022 when being smaller than 15mm, inductive switch unit 1034 receive should Inductive switching signal, and being electrically connected between the power supply unit 1035 of cardioelectric monitor equipment 103 and control unit 1031 is cut off, from And cut off being electrically connected between control unit 1031 and other units so that cardioelectric monitor equipment 103 is supplied without power supply, is entered Shutdown mode.Other units in the present embodiment can be wirelessly connected unit 1036, lead detection unit 1039, data storage Any one or more units in unit 1132 and cardioelectric monitor unit 1131.

When inductive switch unit 1034 far from switch trigger element 1022 control range when, such as with switch triggering unit Spacing between 1022 is more than 15mm, and inductive switch unit 1034 does not receive the switch triggering control of switch triggering unit 1022 Signal or the switch triggering control signal received are weaker, and inductive switch unit 1034 resets at this time, and power supply unit 1035 is again It is electrically connected with control unit 1031, but is wirelessly connected unit 1036, lead detection unit 1039, data storage cell 1132 at this time And cardioelectric monitor unit 1131 is not electrically connected with power supply unit 1035, i.e., cardioelectric monitor equipment 103 is in suspend mode at this time Pattern, when the cardioelectric monitor equipment 103 under suspend mode receives the switch triggering control signal of switch triggering unit 1022, the heart Pyroelectric monitor equipment 103 can be again introduced into shutdown mode.The inductive switching signal that inductive switch unit 1034 is sent out in the present embodiment For wireless switching inductive signal.

Preferably, inductive switch unit 1034 is Hall switch, and switch triggering unit 1022 is magnet or electromagnet.Hall Switch can in certain regional extent the magnetic signal of induced magnet or electromagnet or electromagnet, to cut off cardioelectric monitor Being electrically connected between the power supply unit 1035 of equipment 103 and control unit 1031.

It is appreciated that in some embodiments, inductive switch unit 1034 can be mechanical inductive switch unit, that is, need The machinery inductive switch unit is triggered using external force, so that power supply unit 1035 is electrically connected or cuts off power supply with control unit 1031 Unit 1035 is electrically connected with control unit 1031.Mechanical inductive switch unit can be waved switch unit, key switch unit Or touch-switch unit.The switching signal of mechanical inductive switch unit is mechanical switch trigger signal, inductive switch unit 1034 It receives mechanical switch triggering signal and realizes being turned on and off for cardioelectric monitor equipment 103.

Gravity sensing unit 1033, the gravity-center-change for incuding cardioelectric monitor equipment 103, when user will be in suspend mode mould When the cardioelectric monitor equipment 103 of formula takes up, gravity sensing unit 1033 detects the gravity center shift of cardioelectric monitor equipment 103, To which the signal of the gravity-center-change is converted to corresponding gravity-center-change electrical signal of reaction, and by the gravity-center-change electrical signal of reaction Control unit 1031 is passed to, when control unit 1031 receives gravity-center-change electrical signal of reaction, makes the power supply unit 1035 be It is wirelessly connected unit 1036, lead detection unit 1039, data storage cell 1132 and cardioelectric monitor unit 1131 to power, make It obtains cardioelectric monitor equipment 103 and enters awakening mode, ECG signal sampling can be carried out.Cardioelectric monitor equipment in the wake mode When 103 switch triggerings for receiving switch triggering unit 1022 control signal, cardioelectric monitor equipment 103 can be directly entered shutdown mould Formula.If the cardioelectric monitor equipment 103 under awakening mode does not sense any electrocardiosignal in predetermined time α, again Into suspend mode.Control centre 1031 cuts off power supply unit 1035 and is wirelessly connected unit 1036 and cardioelectric monitor unit 1131 electrical connection.

In present embodiment, predetermined time α meets, 30s≤α≤120, it is preferable that and predetermined time α is 1 minute, when So can also be as needed, in cardioelectric monitor equipment on carry out setting predetermined time α durations.

Cardioelectric monitor unit 1131 is wirelessly connected unit 1036 and lead detection unit 1039 in cardioelectric monitor equipment When 103 entrance awakening mode, can it work normally.

Also referring to Fig. 4, cardioelectric monitor unit 1131 with human skin for being bonded to detect the electrocardiogram (ECG) data of human body Information, specifically, cardioelectric monitor unit 1131 are connect with control unit 1031 and data storage cell 1032, for detecting people Body electrocardiogram data information.

Data storage cell 1032 is used to store the electrocardiogram data information and/or heart rate acquired in cardioelectric monitor unit 1131 Data information.

Unit 1036 is wirelessly connected for being connect with 101 wireless telecommunications of terminal device, so that 1032 institute of data storage cell What is stored can be for transmission in the secondary data storage unit 1012 of terminal device 101.Wherein being wirelessly connected unit 1036 can be with Bluetooth connection unit, WiFi connection units, Lifi connection units, infrared connection unit or Zigbee connection units.It is wirelessly connected Unit 1036, preferably bluetooth connection unit.

Lead detection unit 1039 is electrically connected with cardioelectric monitor unit 1131, for whether detecting cardioelectric monitor unit 1131 It is electrically connected with human skin, that is, detects whether cardioelectric monitor unit 1131 leads to human skin lead, if lead detection unit 1039 do not detect that cardioelectric monitor unit 1131 is electrically connected with human skin, then the feedback signal not being electrically connected with skin is transmitted To control unit 1031, control unit 1031 then keeps cardioelectric monitor equipment 103 to be in awakening mode.

If lead detection unit 1039 detects that cardioelectric monitor unit 1131 is electrically connected with human skin, human body is acquired Electrocardiogram data information, while the feedback signal being electrically connected with skin is passed to control unit 1031 by lead detection unit 1039, Control unit 1031 receive the feedback signal after, while detect be wirelessly connected unit 1036 whether the signal with terminal device 101 Connection unit 1013 communicates to connect.If line connection unit 1036 is communicated to connect with terminal device 101, cardioelectric monitor unit 1131 By monitoring and collected electrocardiogram data information real-time Transmission to terminal device 101 secondary data storage unit 1012, so as to User can see electrocardiogram data information in real time by display unit 1011.

If lead detection unit 1039 detects that cardioelectric monitor unit 1131 is electrically connected with human skin, and it is wirelessly connected single When member 1036 is not communicated to connect with terminal device 101, then cardioelectric monitor unit 1131 stores the electrocardiogram data information detected In in data storage cell 1132, cardioelectric monitor equipment 103 is in half work pattern at this time.When wireless connection unit 1036 and terminal Secondary data when equipment 101 is connected to, then by corresponding electrocardiogram data information by wireless network transmissions to terminal device 101 is deposited Storage unit 1012.At this point, ECG detecting equipment 103 is in full work pattern.

If lead detection unit 1039 detects that cardioelectric monitor unit 1131 is not electrically connected with human skin, i.e. cardioelectric monitor Unit 1031 does not collect human body electrocardio data information, and and when being wirelessly connected unit 1036 and being communicated to connect with terminal device 101, Cardioelectric monitor equipment 103 is in the work pattern that waits for, cardioelectric monitor unit 1031 is waited for acquire human body electrocardio data information.

When cardioelectric monitor equipment 103 is in when work pattern, lead detection unit 1039 continues to monitor cardioelectric monitor unit Whether 1131 be electrically connected with human skin, when lead detection unit 1039 detects cardioelectric monitor unit 1131 and human skin electricity Connection, cardioelectric monitor equipment 103 monitors electrocardiosignal, and the electrocardiogram data information that cardioelectric monitor unit 1131 acquires is passed through nothing Gauze network is transferred to terminal device 101, i.e. cardioelectric monitor equipment 103 enters full work pattern.

When cardioelectric monitor equipment 103 is in when work pattern, and cardioelectric monitor list is not detected in lead detection unit 1039 Member 1131 is electrically connected with human skin, then cardioelectric monitor equipment 103, which is maintained at, waits for work pattern.In some embodiments, Ke Yishe Centering pyroelectric monitor equipment 103 waits for the duration of work pattern, when setting a length of β, wait for that work pattern is more than setting duration when equipment is stored in When β, automatically into suspend mode.

Specifically, cardioelectric monitor equipment 103 further includes timing unit 1037, timing unit 1037 and 1031 electricity of control unit Connection is continuously in for calculating the cardioelectric monitor equipment 103 and waits for the duration of work pattern.

When the cardioelectric monitor equipment 103 in full work pattern is switched to when work pattern, timing unit 1037 is started to work, Monitoring cardioelectric monitor equipment 103 is continuously in the duration for waiting for work pattern.If cardioelectric monitor equipment 103 continues in threshold time β When not carrying out ECG Data Transmission Based with terminal device 101, and not disconnecting the wireless connection with terminal device, timing unit 1037 is sent out For feedback signal to control unit 1031, control unit 1031 receives the time-out feedback information, and controls cardioelectric monitor and set when excess of export Standby 103 automatically into suspend mode, that is, disconnects power supply unit 1035 and be wirelessly connected unit 1036 and cardioelectric monitor unit 1131 Electrical connection.

If timing unit 1037 monitors that cardioelectric monitor equipment 103 is carried out with terminal device 101 again in threshold time β ECG Data Transmission Based judges that cardioelectric monitor equipment 103 is connect with 101 non-disconnection of wireless of terminal device namely cardioelectric monitor is set Standby 103 are in full work pattern.Namely timing unit 1037 monitors that the control of the cardioelectric monitor equipment 103 in threshold time β is led Connection detection unit 1039 detects cardioelectric monitor unit 1131 and contacts fitting with human skin, carries out the heart with terminal device 101 again Then control unit 1031 controls cardioelectric monitor equipment 103 into full work pattern to electric data transmission.

If timing unit 1037 monitors cardioelectric monitor equipment 103 and 101 disconnection of wireless of terminal device in threshold time β Connection, then pyroelectric monitor equipment 103 is automatically into awakening mode.

When the wireless connection unit 1036 of the cardioelectric monitor equipment 103 in full work pattern disconnects nothing with terminal device 101 Automatically into half work pattern when the duration of line connection is more than setting threshold values duration γ, at this point, cardioelectric monitor unit 1131 will The electrocardiogram data information detected is stored in data storage cell 1132.In present embodiment, threshold values duration γ meets, 30s ≤ γ≤120s, it is preferable that threshold values duration γ is 1 minute, naturally it is also possible to as needed, set threshold values duration γ.

When the wireless connection unit 1036 of the cardioelectric monitor equipment 103 in full work pattern disconnects nothing with terminal device 101 The duration of line connection is less than setting threshold values duration γ, then is maintained at full work pattern, frequent mode is avoided to switch.

It is appreciated that when the cardioelectric monitor unit 1131 of the cardioelectric monitor equipment 103 in full work pattern is no and human body Skin conducting electrical connection, then automatically into waiting for work pattern.

For example, the cardioelectric monitor equipment 103 of work pattern in C time-switchings under waiting for work pattern, open by timing unit 1037 entirely Beginning timing, if not monitored also when timing unit 1037 is in the D times, cardioelectric monitor equipment 103 carries out the heart with terminal device 101 Electric data transmission, while when cardioelectric monitor equipment 103 does not disconnect the wireless connection with terminal device 101, then control unit 1031 It controls cardioelectric monitor equipment 103 and enters suspend mode.Namely be wirelessly connected unit 1036 and be wirelessly connected with terminal device 101, and When cardioelectric monitor unit 1131 is separated logical with human body lead in C, timing unit 1037 starts timing, when timing unit 1037 If not monitored also in the D times, cardioelectric monitor equipment 103 carries out ECG Data Transmission Based with terminal device 101, and is wirelessly connected Unit 1036 does not disconnect the wireless connection with terminal device 101, then the control cardioelectric monitor of control unit 1031 equipment 103, which enters, stops Sleep mode.Time difference between D times and C times, the threshold time β as set, the threshold time can be set, and be expired Foot, 30s≤β≤120s.Preferably, threshold time β is 60s.In the present embodiment, opened by switch triggering unit 1022 and induction Close the access of electrical interconnection or open circuit between the cooperation control power supply unit 1035 of unit 1034 and control unit 1031.To Control switching of the cardioelectric monitor equipment 103 in suspend mode and shutdown mode.

By the way that gravity sensing unit 1033 is arranged in cardioelectric monitor equipment 103, sensed by gravity sensing unit 1033 Whether cardioelectric monitor equipment 103 in the hibernation mode shakes, i.e., whether user needs using the cardioelectric monitor under suspend mode Equipment 103 switches cardioelectric monitor equipment 103 in the cardioelectric monitor equipment 103 under determining that user needs using suspend mode To awakening mode so that cardioelectric monitor unit 1132 and wireless connection unit 1036 are in standby operating mode.Pass through pattern Seamless switching can make cardioelectric monitor equipment 103 only when needing to use, and corresponding unit can just power wake-up, from And it is that cardioelectric monitor equipment accomplishes maximum power saving.

Referring to Fig. 5, second embodiment of the invention provides a kind of cardioelectric monitor system 20 comprising it includes terminal device 201, switch triggering equipment 202 and cardioelectric monitor equipment 203.Its place being different from the first embodiment is that switch triggering is set Standby 202 further include charhing unit 2023, is used to charge for the power supply unit 2035 of cardioelectric monitor equipment 203.The charhing unit 2023 can be wireless charging unit, can also be wired charging unit, preferably wireless charging unit.

Referring to Fig. 6, third embodiment of the invention provides a kind of cardioelectric monitor apparatus control system 30 comprising terminal is set Standby 301, switch triggering equipment 302 and cardioelectric monitor equipment 303.Cardioelectric monitor apparatus control system 30 and first embodiment are not Same place is that terminal device 301 further includes user information storage unit 3015 and authenticating unit 3014, and user information is deposited Storage unit 3015 is used to store the user information data of cardioelectric monitor equipment 303, and authenticating unit 3014 is for obtaining user information Data, and the user information data of acquisition are compared with the data information in user information storage unit 3015, it should with certification User whether be corresponding cardioelectric monitor equipment 303 user, to ensure the electrocardiogram data information confidentiality of user.Authentication is single The authentication information of member 3014, which obtains, to be obtained by display unit 3011 to input.

It is appreciated that user information storage unit 3015 and secondary data storage unit 3012 can in some embodiments To be within the same storage device, such as in same storage card or hard disk.

Please refer to Fig. 7 A-7B, fourth embodiment of the invention provides a kind of cardioelectric monitor apparatus control system 40 comprising eventually End equipment 401, switch triggering equipment 402 and cardioelectric monitor equipment 403.Cardioelectric monitor apparatus control system 40 and first is implemented The different place of example is that cardioelectric monitor apparatus control system 40 further includes cloud platform 404, and cloud platform 404 is set with cardioelectric monitor It is connected by wireless network connection or mobile network for 403 and/or terminal device 401, for storing 403 institute of cardioelectric monitor equipment The electrocardiogram data information of acquisition, to be backed up as electrocardiogram data information.

In some embodiments, cardioelectric monitor apparatus control system 40 includes terminal device 401, cardioelectric monitor equipment 403 And cloud platform 404.Wherein cardioelectric monitor equipment 403 passes through mechanical inductive switch unit starting.Cloud platform 404 and cardioelectric monitor Equipment 403 and/or terminal device 401 are connected by wireless network connection or mobile network, for storing cardioelectric monitor equipment 403 Acquired electrocardiogram data information, to be backed up as electrocardiogram data information.

Fig. 8-9 is please referred to, fifth embodiment of the invention provides a kind of cardioelectric monitor apparatus control method, which sets Standby includes power supply unit, gravity sensing unit, control unit, wireless connection unit and ECG detecting unit, and is set with suspend mode Pattern, awakening mode wait for work pattern and operating mode, in the hibernation mode, said supply unit and gravity sensing unit with And control unit electrical connection；In the wake mode, power supply unit is electrically connected with gravity sensing unit and cardioelectric monitor unit；It waits for Under work pattern, power supply unit is electrically connected with gravity sensing unit and cardioelectric monitor unit, and cardioelectric monitor equipment is set with terminal It is standby to be wirelessly connected；In the operational mode, cardioelectric monitor equipment acquires human body electrocardio data information and stores, and this method includes following Step：

Step S1：Judge whether to receive switch triggering signal, if it is, opening cardioelectric monitor equipment, and makes electrocardio Monitoring device enters suspend mode；

Step S2：Judge whether the center of gravity for the cardioelectric monitor equipment opened changes, if it is, automatically into wake-up Pattern；

Step S3：Judge in the wake mode, whether detection cardioelectric monitor unit is logical with human skin lead, detects simultaneously Whether cardioelectric monitor equipment is wirelessly connected with terminal device；

If cardioelectric monitor equipment is only logical with human skin lead, cardioelectric monitor equipment enters operating mode；

Cardioelectric monitor equipment is wirelessly connected with terminal device, and cardioelectric monitor unit disconnects, the heart logical with human skin lead Pyroelectric monitor equipment, which enters, waits for work pattern.

In step sl, switch triggering signal can be wireless switching trigger signal, can also be mechanical switch triggering letter Number, preferably wireless switching trigger signal.

In step s3, operating mode includes half work pattern and full work pattern, in the case where entering half work pattern, by the collected heart Electric data information memory is in cardioelectric monitor equipment；Under full work pattern, electrocardio equipment is connect with terminal signaling, will be collected Electrocardiogram data information is transferred to terminal device.

Further, under full work pattern, if cardioelectric monitor equipment is connect with terminal device disconnection of wireless, monitoring electrocardio prison The duration that measurement equipment is connect with terminal device disconnection of wireless, if disconnection of wireless connection is continued above setting threshold time γ When, automatically into half work pattern, 30s≤γ≤120s.

Further, under full work pattern, judge whether to lead to human skin lead, lead to human body lead if disconnecting, from Dynamic entrance waits for work pattern.

Further, wait for that the duration of work pattern is more than setting threshold time β when cardioelectric monitor equipment is in, automatically into Suspend mode, 30s≤β≤120..

Further, under half work pattern, judge whether to lead to human skin lead, lead to human body lead if disconnecting, from It is dynamic to enter awakening mode.

In some embodiments, switch triggering signal is received in the wake mode in cardioelectric monitor equipment, then closing should Cardioelectric monitor equipment.

Compared with prior art, a kind of cardioelectric monitor equipment provided by the present invention has the following advantages：

1, it is controlled by the cooperation of switch triggering unit and inductive switch unit and is electrically connected between power supply unit and control unit The access of link or open circuit.To control switching of the cardioelectric monitor equipment in suspend mode and shutdown mode.

By the way that gravity sensing unit is arranged in cardioelectric monitor equipment, in the hibernation mode by gravity sensing unit sensing Cardioelectric monitor equipment whether shake, i.e., whether user needs, using the cardioelectric monitor equipment under suspend mode, determining user When needing to use the cardioelectric monitor equipment under suspend mode, cardioelectric monitor equipment is switched to awakening mode so that cardioelectric monitor Unit and wireless connection unit are in standby operating mode.By the seamless switching of pattern, it can make cardioelectric monitor equipment only When needing to use, corresponding unit can just power wake-ups, to be that cardioelectric monitor equipment accomplishes maximum power saving.

The foregoing is merely a prefered embodiment of the invention, is not intended to limit the invention, all institutes within the principle of the present invention Any modification made, equivalent replacement and improvement etc. should all include within protection scope of the present invention.

Claims (10)

1. a kind of cardioelectric monitor equipment, it is characterised in that：Including control unit and the cardioelectric monitor being electrically connected with control unit Unit, gravity sensing unit, inductive switch unit and power supply unit；

Inductive switch unit is used to receive the inductive switching signal that external switch triggering equipment is sent out, with cut off power supply unit with The electrical connection of control unit；

Cardioelectric monitor unit is for acquiring human body electrocardio data information；

Gravity sensing unit is for sensing the cardioelectric monitor unit gravity center shift, so that control unit control power supply unit is electrocardio Monitoring unit is powered.

2. cardioelectric monitor equipment as described in claim 1, it is characterised in that：The cardioelectric monitor equipment further includes that data storage is single Member；

When the cardioelectric monitor equipment, which is disconnected, to be wirelessly connected with terminal device, the collected electrocardio number of cardioelectric monitor unit It is believed that breath is stored in the data storage cell.

3. cardioelectric monitor equipment as claimed in claim 2, it is characterised in that：The cardioelectric monitor equipment further includes being wirelessly connected list Member, timing unit；The cardioelectric monitor equipment is wirelessly connected by the wireless connection unit and terminal device；

When cardioelectric monitor equipment continue in threshold time β not with terminal device carry out ECG Data Transmission Based, and do not disconnect with eventually When the wireless connection of end equipment, timing unit sends out overtime feedback signal to control unit, so that control cardioelectric monitor equipment is disconnected It opens power supply unit and is wirelessly connected being electrically connected for unit and cardioelectric monitor unit.

4. cardioelectric monitor equipment as claimed in claim 3, it is characterised in that：The threshold values β is 30s-120s.

5. a kind of cardioelectric monitor apparatus control system, it is characterised in that：Including switch triggering equipment and cardioelectric monitor equipment；

The switch triggering equipment includes switch triggering unit, and the switch triggering unit can be with emission switch inductive signal；

The cardioelectric monitor equipment includes control unit and the cardioelectric monitor unit being electrically connected with control unit, gravity sensing list Member, inductive switch unit and power supply unit；

Inductive switch unit is single with control to cut off power supply unit for receiving the inductive switching signal that switch triggering equipment is sent out The electrical connection of member；

Cardioelectric monitor unit is for acquiring human body electrocardio data information；

Gravity sensing unit is for sensing the cardioelectric monitor unit gravity center shift, so that control unit control power supply unit is electrocardio Monitoring unit is powered.

6. cardioelectric monitor apparatus control system as claimed in claim 5, it is characterised in that：Switch triggering equipment further includes a storage Unit cuts off institute for storing the cardioelectric monitor equipment, and when the cardioelectric monitor equipment is accommodated in the housing unit State being electrically connected for power supply unit and control unit.

7. a kind of control method of cardioelectric monitor equipment as described in claim 1-4 any one, the cardioelectric monitor equipment It is set with suspend mode, awakening mode, waits for work pattern and operating mode, in the hibernation mode, said supply unit and gravity Sensing unit and control unit electrical connection；In the wake mode, power supply unit and gravity sensing unit and cardioelectric monitor unit Electrical connection；In the operational mode, electrocardiogram data information can be acquired and stored, it is characterised in that：Include the following steps：

Judge whether to receive switch triggering signal, if it is, opening cardioelectric monitor equipment, and cardioelectric monitor equipment is made to enter Suspend mode；

Judge whether the center of gravity for the cardioelectric monitor equipment opened changes, if it is, automatically into awakening mode；

Judge in the wake mode, whether detection cardioelectric monitor unit is logical with human skin lead；

If cardioelectric monitor equipment is logical with human skin lead, cardioelectric monitor equipment enters operating mode.

8. cardioelectric monitor apparatus control method as claimed in claim 7, it is characterised in that：The operating mode includes half work pattern Collected electrocardiogram data information is stored in cardioelectric monitor equipment under half work pattern with full work pattern；In full work pattern Under, electrocardio equipment is connect with terminal signaling, and collected electrocardiogram data information is transferred to terminal device.

9. cardioelectric monitor apparatus control method as claimed in claim 8, it is characterised in that：Under full work pattern, if cardioelectric monitor When equipment is connect with terminal device disconnection of wireless, monitoring cardioelectric monitor equipment connect with terminal device disconnection of wireless it is lasting when Between, if when being continued above setting threshold time γ of disconnection of wireless connection, automatically into half work pattern.

10. cardioelectric monitor apparatus control method as claimed in claim 8, it is characterised in that：Under full work pattern, if cardioelectric monitor When equipment is connect with terminal device disconnection of wireless, monitoring cardioelectric monitor equipment connect with terminal device disconnection of wireless it is lasting when Between, if when being continued above setting threshold time γ of disconnection of wireless connection, automatically into half work pattern, 30s≤γ≤120s.